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Online since: June 2012
Authors: Qun Bo Fan, Jin Tao Liu, Wei Shen, H.N. Cai
Cai 1,2
1 School of Materials Science and Engineering, Beijing Institute of Technology, Beijing 100081, China
2National Key Laboratory of Science and Technology on Materials under Shock and Impact, Beijing 100081, P.
In our simulation, the *MAT_ELASTIC_PLASTIC_THERMAL [14] model is chosen to model YSZ materials.
The compact YSZ material is defined as linear elastic materials, and material property parameters are shown in Table 1 with a failure criterion determined by the Tuler–Butcher failure model [14, 15].
Experimental results, Materials Science and Engineering: A. 299 (2001) 296-304
Ondracek, Theoretical and experimental considerations on the thermal shock resistance of sintered glasses and ceramics using modeled microstructure-property correlations, Journal of Materials Science. 31 (1996) 463-469
In our simulation, the *MAT_ELASTIC_PLASTIC_THERMAL [14] model is chosen to model YSZ materials.
The compact YSZ material is defined as linear elastic materials, and material property parameters are shown in Table 1 with a failure criterion determined by the Tuler–Butcher failure model [14, 15].
Experimental results, Materials Science and Engineering: A. 299 (2001) 296-304
Ondracek, Theoretical and experimental considerations on the thermal shock resistance of sintered glasses and ceramics using modeled microstructure-property correlations, Journal of Materials Science. 31 (1996) 463-469
Online since: August 2013
Authors: Rui Hong Yu, Ting Xi Liu, Rui Ying Hao
Due to the non-uniform characteristics of water color and spatial distribution of bottom materials, the relationship between the gray values and the water depth is difficult to be described by the theoretic model of single band reflection.
Lots of studies show that the influences of bottom materials and water type can be eliminated through the reflection ratio of the two bands, and the water depth can also be calculated by the ratio of the two bands: or (5) As the biggest depth of arid grass-type lake in the arid area is generally less than 3 meters, the spatial distribution of the water types and the bottom materials change obviously.
International Journal of Remote Sensing Vol. 7(1991), p. 473- 479
Advances in Water Science Vol. 18(2007), p.790- 796
Advances in Water Science Vol. 18(2007), p. 270- 276.
Lots of studies show that the influences of bottom materials and water type can be eliminated through the reflection ratio of the two bands, and the water depth can also be calculated by the ratio of the two bands: or (5) As the biggest depth of arid grass-type lake in the arid area is generally less than 3 meters, the spatial distribution of the water types and the bottom materials change obviously.
International Journal of Remote Sensing Vol. 7(1991), p. 473- 479
Advances in Water Science Vol. 18(2007), p.790- 796
Advances in Water Science Vol. 18(2007), p. 270- 276.
Online since: January 2013
Authors: Jian Min Zeng, You Bin Wang
Experiment
The raw materials of the alloy used in the presented study include pure zinc, pure alumunim, pure magnesium, Al-50%Cu alloy.
Acknowledgements The authors sincerely thank the financial supports from Guangxi Natural Science Foundation (Grant No.0832001) and Guangxi Natural Science Foundation (Grant No.2011GXNSFF018001).
Journal of Materials science, Vol. 36 (2001): 3973-3980 [3] Y.
Materials Characterization, Vol. 57 (2006): 326-332 [4] YH.
Materials Science and Engineering A, Vol. 268 (1999): 147-153 [5] N.
Acknowledgements The authors sincerely thank the financial supports from Guangxi Natural Science Foundation (Grant No.0832001) and Guangxi Natural Science Foundation (Grant No.2011GXNSFF018001).
Journal of Materials science, Vol. 36 (2001): 3973-3980 [3] Y.
Materials Characterization, Vol. 57 (2006): 326-332 [4] YH.
Materials Science and Engineering A, Vol. 268 (1999): 147-153 [5] N.
Online since: September 2013
Authors: Hua Shi Liu, Shun Li, He Yi Ge, Dong Zhi Wang
Preparation and Properties of Emulsion Type Sizing Agent for Carbon Fiber
Shun Li1,a, Heyi Ge1,b,*, Huashi Liu1 and Dongzhi Wang1
1 Shandong Provincial Key Laboratory of Preparation and Measurement of Building Materials, University of Jinan, Jinan 250022, P.R.
China School of Material Science and Engineering, University of Jinan, Jinan 250022, P.R.China a qyq0910@163.com, b geheyi@sina.com *Correspondence to: Heyi Ge (geheyi@sina.com) Keywords: Carbon Fiber, Sizing Agent, Composite, Phase Inversion Method Abstract.
Experimental Materials.
Vol. 4(2012), P. 1543-1552 [3] Juan Chen, Jianye Liu and Dongzhi Wang: Advanced Materials Research.
Vols. 236-238 (2011), p. 2295-2298 [4] Jianye Liu, Heyi Ge and Juan Chen: Journal of Applied Polymer Science.
China School of Material Science and Engineering, University of Jinan, Jinan 250022, P.R.China a qyq0910@163.com, b geheyi@sina.com *Correspondence to: Heyi Ge (geheyi@sina.com) Keywords: Carbon Fiber, Sizing Agent, Composite, Phase Inversion Method Abstract.
Experimental Materials.
Vol. 4(2012), P. 1543-1552 [3] Juan Chen, Jianye Liu and Dongzhi Wang: Advanced Materials Research.
Vols. 236-238 (2011), p. 2295-2298 [4] Jianye Liu, Heyi Ge and Juan Chen: Journal of Applied Polymer Science.
Online since: January 2012
Authors: Codrick Martis, Susil K. Putatunda
Tsuji, “Mechanical properties of ultrafine- grained ferritic steel sheets fabricated by rolling and annealing of duplex microstructures”, Journal of Materials Science, Vol 43, pp 7391-7396, (2008)
Matlock, “Overview of processing, microstructure and mechanical properties of Ultrafine-Grained bcc steels ”, Materials Science and Engineering A, Vol 441, pp1-17, (2006)
Guelton, “Modeling of TWIP Effect on Work Hardening”, Materials Science and Engineering A, Vol A319-321, pp 246-249, (2001) [6] S.
Materials Science and Engineering A, Vol.378(1-2), pp 289-292,2004
[15] P.Prasad Rao and S.K.Putatunda, Materials Science and Technology, Vol 14, pp-1257-1265 (1998).
Matlock, “Overview of processing, microstructure and mechanical properties of Ultrafine-Grained bcc steels ”, Materials Science and Engineering A, Vol 441, pp1-17, (2006)
Guelton, “Modeling of TWIP Effect on Work Hardening”, Materials Science and Engineering A, Vol A319-321, pp 246-249, (2001) [6] S.
Materials Science and Engineering A, Vol.378(1-2), pp 289-292,2004
[15] P.Prasad Rao and S.K.Putatunda, Materials Science and Technology, Vol 14, pp-1257-1265 (1998).
Online since: December 2012
Authors: Gao Hong Li, Man Zhu, Jian Ping Li, Feng Xia
Experimental procedure
Taking LY12 aluminum alloy as parent materials, the authors conducted an experimental investigation on LY12 alloy with manual tungsten arc argon-shielded welding.
The microstructure of base material is shown in Fig.2d.
References [1] M.Liu,S.H.Liu,D.Q.Wang,et al: Journal of Dalian Jiaotong University Vol. 28 (2007), p. 74 [2] G.P.Liu, C.G.
Xu, et al: Material Science and Technology Vol. 7(1999), p.96 [7] K.W.
Du: Journal of Northwestern Polytechnical University Vol. 21(2003), p.626
The microstructure of base material is shown in Fig.2d.
References [1] M.Liu,S.H.Liu,D.Q.Wang,et al: Journal of Dalian Jiaotong University Vol. 28 (2007), p. 74 [2] G.P.Liu, C.G.
Xu, et al: Material Science and Technology Vol. 7(1999), p.96 [7] K.W.
Du: Journal of Northwestern Polytechnical University Vol. 21(2003), p.626
Online since: May 2012
Authors: Wei Wang, Pi Ji Hou, Ming Xie, Shan Suo Zheng
Material models.
When building a microscopic finite model, thousands of solid element or other element are used to consist a component, different material models are used to simulate different kinds of materials.
For each material, finite method under microscopic level has its own microscopic constitutive equations involving damage mechanics and mechanics of materials.
Journal of Engineering Mechanics, Vol.26-5(2009), p.88-101
Journal of Structural Engineering, Vol.114-8(1988), p.1804-26
When building a microscopic finite model, thousands of solid element or other element are used to consist a component, different material models are used to simulate different kinds of materials.
For each material, finite method under microscopic level has its own microscopic constitutive equations involving damage mechanics and mechanics of materials.
Journal of Engineering Mechanics, Vol.26-5(2009), p.88-101
Journal of Structural Engineering, Vol.114-8(1988), p.1804-26
Online since: September 2014
Authors: Gilbert Silva, Rosinei Batista Ribeiro, Murilo de Oliveira Borges, Gustavo Aristides Santana Martinez, Márcia Regina Baldissera, Geovani Rodrigues
Materials and Methods
The material used in this study was the Ta commercially pure (98.9%), obtained by electron beam melting.
Prakash: Materials Letters Vol. 56 (2002), p. 560
Argenson: Ortopaedics and Traumatology: Surgery and Research Vol. 96 (2010), p. 235 [8] J Black: Clinical Materials Vol. 16 (1994), p. 167 [9] V.K.
Hartwigsuveen: Materials Science and Engeneering A Vol. 426 (2006), p.128
Moser: International Journal of refractory Metals and hard Matarials (1999), p. 29
Prakash: Materials Letters Vol. 56 (2002), p. 560
Argenson: Ortopaedics and Traumatology: Surgery and Research Vol. 96 (2010), p. 235 [8] J Black: Clinical Materials Vol. 16 (1994), p. 167 [9] V.K.
Hartwigsuveen: Materials Science and Engeneering A Vol. 426 (2006), p.128
Moser: International Journal of refractory Metals and hard Matarials (1999), p. 29
Online since: April 2018
Authors: K.S. Jhuang, Hao Cheng Yu, Yeong Maw Hwang
In addition to the development of new materials, the promotion of existing material properties is one of the important research direction, such as the application of Severe Plastic Deformation(SPD) refinement material organization, can make the material with higher strength, while retaining toughness with ductility [1].
Rotating Compression Forming method applying compression and rotation at the same time can also control the material structure [2], the properties of the material will be extended in a specific direction into a continuous gradient of the product, the product can be applied on the material which outside needs high hardness, and the internal needs of a certain toughness of the product, such as biodegradable magnesium alloy implant [3].
Inoue, “Advanced researches on ultrafine-grained metals by plastic deformation,” Journal of the JSTP,Vol. 55, No. 647. (2014) [2] R.
Wang, “A study of flow-through phenomenon in the press forging of magnesium-alloy sheets,” Journal of Materials Processing Technology, Vol.187, pp. 770-774, 2007 [7] S.M.
Beladi, “Dynamic recrystallization in AZ31 magnesium alloy,” Materials Science and Engineering:A, Vol.456, pp. 52-57. (2007)
Rotating Compression Forming method applying compression and rotation at the same time can also control the material structure [2], the properties of the material will be extended in a specific direction into a continuous gradient of the product, the product can be applied on the material which outside needs high hardness, and the internal needs of a certain toughness of the product, such as biodegradable magnesium alloy implant [3].
Inoue, “Advanced researches on ultrafine-grained metals by plastic deformation,” Journal of the JSTP,Vol. 55, No. 647. (2014) [2] R.
Wang, “A study of flow-through phenomenon in the press forging of magnesium-alloy sheets,” Journal of Materials Processing Technology, Vol.187, pp. 770-774, 2007 [7] S.M.
Beladi, “Dynamic recrystallization in AZ31 magnesium alloy,” Materials Science and Engineering:A, Vol.456, pp. 52-57. (2007)
Online since: May 2004
Authors: S. Altıntaş, H. Gökbayrak, Ş. Gören
Hydroxylapatite (HAp) ceramics are used as a biocompatible implant materials especially
in orthopedics and dentistry.
Akkas: Journal of Materials Science: Materials in Medicine, Vol. 8 (1997), p. 91
Baah: Materials and Design, Vol. 23 (2002), p. 341
Yoshimura: International Journal of Inorganic Materials, Vol 3 (2001), p. 997
Roy: Journal of Materials Res., Vol. 9 (1994), p. 180.
Akkas: Journal of Materials Science: Materials in Medicine, Vol. 8 (1997), p. 91
Baah: Materials and Design, Vol. 23 (2002), p. 341
Yoshimura: International Journal of Inorganic Materials, Vol 3 (2001), p. 997
Roy: Journal of Materials Res., Vol. 9 (1994), p. 180.